Pages that link to "Item:Q2072445"

The following pages link to Coupled thermo-hydro-mechanical-phase field modeling for fire-induced spalling in concrete (Q2072445):

Displaying 12 items.

• Coupled model of hygro-thermal behavior of concrete during fire (Q930691) (← links)
• An approach for modelling concrete spalling in finite strains (Q991504) (← links)
• Towards prediction of the thermal spalling risk through a multi-phase porous media model of concrete (Q996668) (← links)
• A finite element model for the fire-performance of GRP panels including variable thermal properties (Q1274613) (← links)
• On sequentially coupled thermo-elastic stochastic finite element analysis of the steel skeletal towers exposed to fire (Q1658617) (← links)
• Computational chemo-thermo-mechanical coupling phase-field model for complex fracture induced by early-age shrinkage and hydration heat in cement-based materials (Q1987877) (← links)
• A thermodynamically consistent finite strain phase field approach to ductile fracture considering multi-axial stress states (Q2083110) (← links)
• A phase-field thermomechanical framework for modeling failure and crack evolution in glass panes under fire (Q2237798) (← links)
• The study of diffuse interface propagation of dynamic failure in advanced ceramics using the phase-field approach (Q2683446) (← links)
• A computational meshfree RPIM approach for phase-field modeling of brittle fracture (Q6556495) (← links)
• A coupled hygro-thermo-mechanical Cosserat peridynamic modelling of fire-induced concrete fracture (Q6556499) (← links)
• A ductile phase-field fracture formulation with regularized fracture toughness through a gradient-extended micromorphic approach (Q6595867) (← links)